Front bicycle derailleur fork and derailleur comprising said fork

ABSTRACT

Fork ( 4 ) of a bicycle front derailleur comprising an outer plate ( 6 ) and an inner plate ( 5 ), which are two separate elements made of different materials, the inner plate ( 5 ) being stiffer and made of a harder material and the outer plate ( 6 ) being made of a lighter material.

DESCRIPTION

[0001] This invention relates to a front bicycle derailleur fork for controlling the selective engagement of a transmission chain of a bicycle on a plurality of chainrings of different diameters associated to the bottom bracket of the bicycle, said fork comprising an inner plate and an outer plate, which is essentially parallel and distanced with respect to the inner plate, and joined to it by an upper bridge portion, said outer plate being located on the side of the larger diameter chainring and said inner plate being located on the side of the smallest diameter chainring.

[0002]FIG. 1 of the annexed drawings shows a perspective view of a front bicycle derailleur of the traditional type, comprising a fixed body 1 with a fork 2 for anchoring to a tube 3 of the bicycle frame near the bottom bracket. The derailleur 1 also comprises a fork 4 for controlling the selective engagement of the bicycle chain (not illustrated) on the chainring (not illustrated) associated to the bottom bracket. The fork 4 comprises an inner plate 5, closer to the bicycle frame, and an outer plate 6, facing outwards, which is parallel and distanced with respect to the plate 5. The two plates 5, 6 are connected by an upper bridge 7 and a rear bridge 8. The upper bridge 7 is provided with a pair of parallel tabs 9 for the articulated connection to a rocker arm 10, which is articulated to the fixed body 1 of the derailleur in point 11 and presents an opposite end 12 for anchoring the end of the derailleur actuating flexible wire (not illustrated). The inner plate 5 also presents a pair of parallel tabs 13 for the articulated connection to a second articulated arm 14, whose opposite end is connected in an articulated fashion to the fixed body 1 in point 15. The two arms 10, 14, consequently, define an articulated parallelogram connection, which allows the fork 4 to move with respect to the fixed body 1 in a direction which is essentially transversal with respect to the longitudinal direction of the bicycle, indicated by the arrow A. A spring 16, which tends to recall the fork 4 forwards an end of travel position (leftwards with reference to the drawing), is provided on the spindle of the inner plate 4 and the arm 14. From this position, the fork can be moved rightwards (always with reference to FIG. 1) following the intervention of a derailleur control (not illustrated) whereby pulling the arm 10 by means of the flexible wire connected to the end 12.

[0003] In this description and in the claims which follow, the expressions “inner plate” and “outer plate” refer to the usual assembly condition of the front bicycle derailleur. According to the traditional assembly arrangement, the set of chainrings associated to the bottom bracket of the bicycle is arranged to the right of the bicycle frame, with the largest diameter chainring arranged on the outside and the smallest diameter chainring arranged on the inside. Similarly, the fork 4 presents an inner plate 5 facing the bicycle frame and an outer frame 6 facing outwards with respect to the bicycle.

[0004] It is essential to note that during the front derailleur operation, one of the two plates 5, 6 of the derailleur pushes the chain laterally to shift it from the chainring is it meshed with to the next chainring. More precisely, the lateral pushing action of the chain is exerted by the inner plate 5, when the chain is shifted from a smaller diameter chainring to a larger diameter chainring, and by the outer plate 6, when the chain is shifted from a larger diameter chainring to a smaller diameter chainring.

[0005] The objective of this invention is to make a front bicycle derailleur fork which is capable of working efficiently and reliably in all conditions of operation of the derailleur and which is simple and lightweight at the same time.

[0006] To attain this objective, this invention relates to a fork of the type illustrated at the beginning of this description, characterised in that said outer plate and said inner plate are two separate elements made of different materials. Preferably, the material of the inner plate is stiffer and harder and the material of the outer plate is lighter.

[0007] The fork according to this invention differentiates from those made according to the traditional technique, which are typically made of a single pressed and bent metal part.

[0008] Studies and experiments conducted by the Applicant have ascertained that the fork structure can be optimised, both in terms of simplicity and lightness, considering that, for the reasons illustrated above, the outer plate and the inner plate of the fork are called to perform different tasks. In practice, while a relatively stiffer and harder material is needed for the inner plate, since this plate is called to perform the more difficult task of shifting the chain “up” from a smaller diameter chainring to a larger diameter chainring, the material chosen for the outer plate can be softer and lighter.

[0009] According to a preferred form of embodiment, the inner plate of the fork according to this invention is made of light alloy, while the outer plate is made of fibre-reinforced synthetic resin, for example carbon fibre-reinforced synthetic resin.

[0010] In a first form of embodiment, the element forming the outer plate incorporates a rear bridge, connecting the rear ends of the inner plate and of the outer plate. In an alternative form of embodiment, on the other hand, a third element, which is separate from the two elements forming the inner plate and the outer plate, forms said rear connection bridge between the two plates.

[0011] The two elements forming the inner plate and the outer plate preferably incorporate respective upper plates, which overlap and are joined to form said upper connection bridge, the elements defining the outer plate and the inner plate being connected by said overlapping plates forming the upper bridge and by the rear ends, either directly, as in the case of the first form of embodiment described above, or indirectly, by means of the third element forming the rear connection bridge, in the case of the second form of embodiment described above.

[0012] In an additional form of embodiment of this invention, the inner surface of the outer plate of the fork is provided with an additional plate, projecting from the space between the inner plate and the outer plate, to locally decrease the width of this space, according to the principles specified in Italian Patent Application T099A000792 by the Applicant.

[0013] According to another possible form of embodiment, the outer face of the outer plate can be provided with an additional anti-wear plate, made of metallic material.

[0014] This invention will be better explained by the following detailed descriptions with reference to the accompanying figure as non-limiting example, whereas:

[0015]FIG. 1 is a perspective view of a front derailleur of a bicycle according to the traditional technique,

[0016]FIG. 2 is a perspective view of a front derailleur of a bicycle according to this invention,

[0017]FIG. 3 is a perspective exploded view of the fork shown in FIG. 2,

[0018]FIG. 4 is a variant of FIG. 3 and

[0019]FIGS. 5, 6 illustrate two additional forms of embodiments of FIG. 2.

[0020] In FIGS. 2-6, the parts in common with FIG. 1 are indicated with the same reference numerals.

[0021] In the illustrated forms of embodiment, the fork 4 according to this invention presents an inner plate 5 and an outer plate 6, which are two separate elements. The inner plate 5 is made of stiffer and harder material, typically light metal alloy of the type normally used for these parts. The outer plate 6, on the other hand, is made of a light material, typically fibre-reinforced synthetic resin, for example carbon fibre-reinforced synthetic resin. The two elements forming the plates 5, 6 are joined by the upper bridge 7 and the rear bridge 8. The upper bridge 7 consists of two plates 7 a, 7 b, which overlap (see FIG. 3), belonging to the two elements forming the plates 5, 6, respectively. The union is achieved by means of a rivet 30, which engages the holes 31, 32 in the plates 7 a, 7 b. In the case of the form of embodiment illustrated in FIGS. 2, 3, the rear bridge 8 consists of a third element, separate from the two elements forming the plates 5, 6, and made of light alloy or composite material. As clearly visible in FIG. 3, the element 8 presents a general U-shaped configuration with a central part 8 a and two branches 8 b, 8 c fastened to the rear ends of the two plates 5, 6, respectively. The branch 8 b is fastened to the plate 5 by means of a screw 33, which engages a passing hole 34 in branch 8 b and a threaded hole 35 in the plate 5. The rear end of the outer plate 6 can be fastened to the branch 8 c of the bridge element 8 simply by clipping, or by means of a screw or rivet (not illustrated). The connection means herein described as non-limiting examples can be replaced by any other type of conventional connection, including adhesive.

[0022] The form of embodiment illustrated in FIG. 4 differs from that shown in FIGS. 2, 3 in that the rear bridge portion 8 is an integral part of the carbon fibre element forming the outer plate 6. For the rest, the structure of the fork is identical to that described above. In both cases, the tabs 9 and 13 belong to the metal alloy element defining the inner plate 5.

[0023] The alternative form of embodiment illustrated in FIG. 5 is essentially identical to that shown in FIGS. 2 and 3 and differs only in that the plate 6 presents an additional plate 36 on the inner face, with the purpose of locally decreasing the width of the space between the two plates 5, 6. This device taken separately is the subject of Italian Patent Application T099A000729 by the Applicant. The purpose is to ensure the correct shifting of the chain from a smaller diameter chainring to a larger diameter chainring, also with very narrow chains, such as those currently used with shifting units presenting a high number of sprockets (for example 10) on the hub of the rear wheel of the bicycle.

[0024] Finally, the alternative form of embodiment illustrated in FIG. 6 refers to the arrangement of an anti-wear plate 37, for example made of metallic material, on the inner face of the outer place.

[0025] Thanks to the characteristics illustrated above, the fork according to this invention presents a simple structure and is extremely light in weight while, on the other hand, the fork is efficient and reliable for performing its task, so to ensure perfect operation of the derailleur.

[0026] Naturally, numerous changes can be implemented to the construction and forms of embodiment of the invention herein envisaged, all comprised within the context of the concept characterising this invention, as defined by the following claims. 

1. Bicycle front derailleur fork for controlling the selective engagement of a transmission chain of a bicycle on a plurality of chainrings of different diameters associated to the bottom bracket of the bicycle, said fork (4) comprising an inner plate (5) and an outer plate (6), which are essentially parallel and distanced with respect to the inner plate (5) and joined to it by an upper bridge portion (7), said outer plate (6) being located on the side of the larger diameter chainring and said inner plate (5) being located on the side of the smallest diameter chainring, characterised in that said outer plate (6) and said inner plate (5) are two separate elements made of different materials.
 2. Fork according to claim 1, characterised in that the material of the inner plate (5) is stiffer and harder and the material of the outer plate is lighter.
 3. Fork according to claim 1, characterised in that the inner plate (5) is made of light alloy and that the outer plate (6) is made of fibre-reinforced synthetic resin.
 4. Fork according to claim 3, characterised in that said outer plate (6) is made of carbon fibre-reinforced synthetic resin.
 5. Fork according to claim 1, characterised in that the outer plate (6) incorporates a rear bridge (8) connecting the inner plate (5) and outer plate (6).
 6. Fork according to claim 1, characterised in that it comprises a third element (8) separate from the two elements forming the inner plate (5) and the outer plate (6), which forms a rear connection bridge (8) between said plates (5, 6).
 7. Fork according to claim 1, characterised in that said two elements incorporate respective upper plates (7 a, 7 b) which overlap and are jointed to define said upper connection bridge (7).
 8. Fork according to claim 7, characterised in that said elements are connected by the overlapping plates (7 a, 7 b) forming the upper bridge (7) and by their rear ends.
 9. Fork according to claim 7, characterised in that the rear ends of said elements are connected together directly.
 10. Fork according to claim 8, characterised in that the rear ends of said elements are connected together by means of a third element, separate from the two elements forming the inner plate (5) and the outer plate (6), forming a rear connection bridge (8) between these plates.
 11. Fork according to claim 10, characterised in that said third element is made of either light alloy or composite material.
 12. Fork according to claim 1, characterised in that the inner face of the outer plate (6) is provided with an additional plate (36), which projects from the space between the outer plate (6) and the inner plate (5), to locally decrease the width of this space.
 13. Fork according to claim 1, characterised in that the inner face of the outer plate (6) is provided with an additional anti-wear plate (37) made of metallic material.
 14. Front derailleur of bicycle, characterised in that it comprises a fork according to any of the claims above. This is essentially as described and illustrated for the specified purposes. 